Acceptability and outcomes of an individualized exergaming telePT program for veterans with multiple sclerosis: a pilot study

Scoping review: The effects of diet, physical activity and sleep on motor and physical fatigue in people with multiple sclerosis

Physical and motor fatigue are debilitating symptoms common in multiple sclerosis (MS). Lifestyle interventions may be effective in managing MS-related fatigue. This scoping review aims to: (i) identify and summarise lifestyle interventions including those focused on diet, physical activity, and sleep, or multicomponent interventions for physical and motor fatigue management in MS; and (ii) provide recommendations for future research in this area. Database searches of MEDLINE (Ovid), Cochrane (Cochrane Library), Scopus (Elsevier), CINAHL (EBSCOhost), and Embase (Ovid) were conducted. To be included in this scoping review, studies were to be published in a peer reviewed scientific journal, focused on a non-pharmacological lifestyle intervention (physical activity, exercise, sleep, diet, or a combination), and written in English. Forty-one studies were included for analysis. Included participants were predominantly female, living with relapsing-remitting MS, with a median age of 48 years. The design of the studies comprised mainly of randomised control trials and pilot/feasibility studies. All included studies incorporated a physical activity intervention, with most examining aerobic/endurance exercise. Most studies reported an effect on improving physical/motor fatigue and a large proportion incorporated an endurance training program. To build on the current evidence and progress MS-fatigue related recommendations, further studies with larger sample sizes and a more inclusive range of MS types are required. Finally, with a gap of research investigating the role of diet and sleep on motor and physical fatigue in MS, research into this field is critically needed.

Virtual Healthcare for Older Adults With Preventable Chronic Conditions: A Meta-synthesis of Quality Aspects

Our study employed a six-step meta-synthesis approach to understand quality aspects of virtual healthcare trajectories and identify effective strategies for older adults with preventable chronic conditions across the world. Review of twenty-one articles revealed four key themes: functionality of virtual healthcare, equity in service delivery, satisfaction with care, and cost-effectiveness. Despite the challenges posed by technological and clinical complexities, virtual healthcare initiatives have significantly improved accessibility and availability of health services, thereby reducing disparities. Notably, telehealth saved an average of 166-minutes of travel time, demonstrating a clear benefit of virtual healthcare. While all parties expressed satisfaction with virtual healthcare, several challenges were reported, including a digital divide, limited access to digital devices, absence of a multidisciplinary approach, and lack of rural-specific programs.

At home e-based physical exercise programs in patients with multiple sclerosis: a scoping review

Introduction

Physical exercise (PE) improves symptoms and quality of life in people with multiple sclerosis (pwMS). However, incorporating PE into daily lives of pwMS pose difficulties. As an alternative to in-person PE, e-based PE has been proposed because of its advantages in terms of accessibility and convenience.

Objective

To synthesize existing evidence on e-based PE at home in adults MS and discuss study designs, rehabilitation programs, intervention effects and possible knowledge gaps.

Methods

In this scoping review, a systematic search in electronic databases including Embase, Medline, CINAHL and Cochrane Library was conducted following the PRISMA guidelines. Peer-reviewed articles in English on e-based PE interventional studies at home involving adult pwMS, published from 2008 until April 2023, were identified and exported to Covidence. Data from the included studies were extracted and synthesized. This scoping review identified different types of e-based PE interventions used in pwMS across different study designs, but when evaluating intervention effects, this review focused solely on randomized controlled trials (RCTs).

Results

A total of 3,006 studies were retrieved and 179 studies were screened in full text, resulting in the inclusion of 54 studies with a total of 2,359 pwMS. Of those, 33 were RCTs and three were qualitative studies. The studies reported on various e-based interventions including video-based programs, telerehabilitation, and web-based programs. The interventions evaluated muscle strength, cardiorespiratory fitness, walking speed, endurance, balance, and fatigue, as well as symptoms of depression and cognitive dysfunction. E-based PE interventions at home in RCTs demonstrated improvement of depressive symptoms and anxiety, while inconsistent results were reported for fatigue, walking speed and balance. No significant benefits were observed regarding dexterity. Results were generally heterogeneous and were limited by small sample sizes. Several limitations were identified, such as lack of physical activity assessment prior to the intervention and poor reporting of duration, intensity, frequency and adherence to e-based PE interventions.

Conclusion

E-based PE interventions in pwMS may improve MS-related symptoms, but the study quality is generally low, and findings are often inconsistent. Several important limitations of the existing literature have been identified in the present review, which can guide future research.

A Systematic Review of the Effects of Interactive Telerehabilitation with Remote Monitoring and Guidance on Balance and Gait Performance in Older Adults and Individuals with Neurological Conditions

Recognizing the growing interests and benefits of technology-assisted interactive telerehabilitation in various populations, the aim of this review is to systematically review the effects of interactive telerehabilitation with remote monitoring and guidance for improving balance and gait performance in older adults and individuals with neurological conditions. The study protocol for this systematic review was registered with the international prospective register of systematic reviews (PROSPERO) with the unique identifier CRD42024509646. Studies written in English published from January 2014 to February 2024 in Web of Science, Pubmed, Scopus, and Google Scholar were examined. Of the 247 identified, 17 were selected after initial and eligibility screening, and their methodological quality was assessed with the National Institutes of Health Quality Assessment Tool for Observational Cohort and Cross-sectional Studies. All 17 studies demonstrated balance and gait performance improvement in older adults and in individuals with stroke, Parkinson's disease, and multiple sclerosis following 4 or more weeks of interactive telerehabilitation via virtual reality, smartphone or tablet apps, or videoconferencing. The findings of this systematic review can inform the future design and implementation of interactive telerehabilitation technology and improve balance and gait training exercise regimens for older adults and individuals with neurological conditions.

Physical Telerehabilitation interventions for Gait and balance in Multiple sclerosis: A Scoping review

BACKGROUND

Gait and balance impairments affects approximately a quarter of people with multiple sclerosis (pwMS) at onset and increases to almost half by five years. Physical rehabilitation has been recognised as the gold standard method to restore physical function in multiple sclerosis (MS). Emerging evidence in the literature is suggesting that a remote therapy rehabilitation platform (Telerehabilitation) is cost-effective, beneficial, and satisfying for patients and health care practitioners. The overarching aim of this review is to identify and summarise the evidence on the different types of telerehabilitation interventions available to manage gait and balance.

METHODS

This review followed a methodological framework for conducting scoping reviews. PubMed, Science Direct and Web of Science were searched in April 2023 for relevant published literature. The inclusion criteria were peer-reviewed journal articles written in English which included telerehabilitation interventions for pwMS. Search keywords included multiple sclerosis and telerehabilitation. A reviewer screened titles and abstracts and eligible articles were fully reviewed. The included studies were categorised based on the type of intervention.

RESULTS

Eight studies were included in this review. The participants (n = 355) had an average age of 48 years (SD = 9.9) with 50% who had relapsing remitting multiple sclerosis who were living with MS for 12 years on average. Study designs included randomised control trials (n = 3), pilot studies and feasibility studies (n = 4). Two types of interventions were identified: Exergaming (n = 5) and Web-Based Physical Therapy (n = 2) of which exergaming appeared to be optimal in improving gait and balance.

CONCLUSION

This scoping review identified and summarised the evidence on telerehabilitation interventions used for gait and balance in MS. The evidence is showing that telerehabilitation could be used as an alternative to conventional rehabilitation methods for improving gait and balance. More robust trials with larger sample sizes are needed to build on the current evidence to enable telerehabilitation to be integrated into care pathways in the future.

STASISM: A Versatile Serious Gaming Multi-Sensor Platform for Personalized Telerehabilitation and Telemonitoring

Telemonitoring and telerehabilitation have shown promise in delivering individualized healthcare remotely. We introduce STASISM, a sensor-based telerehabilitation and telemonitoring system, in this work. This platform has been created to facilitate individualized telerehabilitation and telemonitoring for those who need rehabilitation or ongoing monitoring. To gather and analyze pertinent and validated physiological, kinematic, and environmental data, the system combines a variety of sensors and data analytic methodologies. The platform facilitates customized rehabilitation activities based on individual needs, allows for the remote monitoring of a patient's progress, and offers real-time feedback. To protect the security of patient data and to safeguard patient privacy, STASISM also provides secure data transmission and storage. The platform has the potential to significantly improve the accessibility and efficacy of telerehabilitation and telemonitoring programs, enhancing patients' quality of life and allowing healthcare professionals to provide individualized care outside of traditional clinical settings.

Telerehabilitation solutions in patient pathways: An overview of systematic reviews

Background

Telerehabilitation (TR), a branch of telemedicine, provides remote therapeutic rehabilitation through telecommunication. Driven by technological advances and benefits like remote monitoring and patient education, it has grown since 1998. The Coronavirus Disease 2019 (COVID-19) pandemic highlighted its importance in maintaining healthcare access.

Research question

What is the efficacy of TR compared to in-person rehabilitation? Are the assessment tools effective? Is TR well-accepted, and are costs reduced?

Methods

A bibliographic search on Medline, Cochrane and Google Scholar focused on systematic reviews (SRs) from 2014 to Mai 2024, comparing TR or home-based rehabilitation with in person treatments for various conditions. Independent reviewers conducted initial screenings, resolving disagreements by a third reviewer. Joanna Briggs Institute Critical Appraisal Checklist was used to evaluate the quality of review. The data was synthesised narratively.

Results

The search identified 665 SRs. After selection, 228 SR were included. TR models include synchronous (real-time video interactions), asynchronous (independent sessions through digital platforms) and mixed methods. Regardless of the medical fields, the conclusions of the SRs consistently point to the equivalence of TR compared to in-person rehabilitation. Remote evaluations via digital tools were reliable and valid for various assessments. TR is cost effectiveness and well accepted.

Conclusions

TR is a viable alternative or complement to traditional rehabilitation, offering enhanced accessibility, reduced costs and improved results. Barriers include technical issues, training and concerns about lack of physical contact. Mixed methods could address these challenges.

A pilot study of an integrated, personalized, respiratory and motor telerehabilitation program for pediatric patients with hereditary neuromuscular disorders

INTRODUCTION

Telerehabilitation provides physical training to patients through telecommunication networks. We examined the feasibility, safety, and efficacy of an integrated, personalized, respiratory and motor telerehabilitation program for pediatric patients with hereditary neuromuscular disorders (NMDs).

METHODS

Stable pediatric patients were recruited for a 16-week home training program with personalized pulmonary, upper and lower limb exercises. Patients reviewed instructional videos at home and attended bi-weekly follow-ups through video or audio calls, text messages, or emails. The primary outcomes were respiratory function, Medical Research Council (MRC) grading, hand/pinch strength, 6-minute walk test, and Pediatric Quality-of-Life Inventory 3.0 Neuromuscular Module survey. The secondary outcomes were study compliance and user feedback.

RESULTS

Patients with spinal muscular atrophy (n = 4), congenital myasthenic syndrome (n = 2), and Duchenne muscular dystrophy (n = 2) completed the program. The median weekly exercise time was 101.3 min (range: 30.0-266.9). No extra face-to-face physiotherapy sessions were requested by the patients. No adverse events were reported. After the study, patients showed improvements in maximal expiratory pressure (35.0 vs. 47.5 cm H2O, p = .028) and maintained their MRC grade, hand/pinch strength, and walking distance. Patients also reported improvements in the Pediatric Quality-of-Life Inventory 3.0 Neuromuscular Module survey score (74.5 vs. 87.0, p = .036). Patients rated the overall program highly (mean: 4.00/5.00) and recommended it as a standard of care (mean: 4.38/5.00).

DISCUSSION

Our telerehabilitation program was feasible, safe, and possibly effective for this pilot cohort of stable pediatric patients with hereditary NMDs. Larger-scale studies for longer periods are warranted to confirm the results.

Addressing Opportunities and Barriers in Telehealth Neurologic Physical Therapy: Strategies to Advance Practice

BACKGROUND AND PURPOSE

Since the COVID-19 pandemic, the use and implementation of telehealth has expanded, with implementation moving ahead of best practice recommendations due to necessity. Telehealth has improved access and care coordination for patients with various neurologic conditions; however, information regarding therapeutic intensity, safety, and appropriateness is lacking. In 2021, the Academy of Neurologic Physical Therapy formed a Telehealth Taskforce to provide clinical and educational resources for its members and the neurologic physical therapy (PT) community. The purpose of this special interest article is to provide consensus-driven best practice resources developed by the Taskforce and describe the process of creating these resources to assist with telehealth implementation in neurologic PT practice, advocate for continued utilization, and shine light on opportunities for future research.

SUMMARY OF KEY POINTS

In this special interest article, we describe the process, challenges, and opportunities of developing and disseminating resources to educate, train, and support telehealth implementation in neurologic clinical practice. Four key strategies to facilitate telehealth implementation emerged: (1) increase knowledge of resources related to telehealth and mobile applications; (2) develop and disseminate evidence-based and consensus-based best practice recommendations for telehealth in neurologic PT; (3) provide future recommendations for integrating telehealth in PT, education, research, and clinical practice; and (4) encourage advocacy for inclusion of telehealth within the PT community. We explain the need to continue research and provide recommendations to expand telehealth research in neurologic clinical practice.

RECOMMENDATIONS FOR CLINICAL PRACTICE

This article highlights the potential and future of telehealth in neurologic PT practice. Our recommendations provide current clinical tools and resources for telehealth implementation following a knowledge-to-action framework and suggest areas for future research.Video Abstract available for more insights from the authors (see the Video, the Supplemental Digital Content, available at: http://links.lww.com/JNPT/A447).

Is telehealth an effective and feasible option for improving falls-related outcomes in community-dwelling adults with neurological conditions? A systematic review and meta-analysis

OBJECTIVE

To determine the effectiveness of telehealth interventions in reducing community falls risk or rates compared to equivalent in-person interventions in adults with neurological conditions.

DATA SOURCES

Eight electronic databases, trial registries and search engines were searched for the concepts 'falls', 'neurological conditions', and 'telehealth', limited to English language, from inception until August 2022.

REVIEW METHODS

Search for original research where the intervention was delivered via synchronous videoconferencing with the aim of reducing falls and falls-related outcomes. Screening and risk of bias assessment were completed by two independent researchers. Outcome data included falls rates, falls-related outcomes, safety, feasibility, and acceptability. Risk of bias was assessed using the ROB-2 and ROBINS-I tools. Quality of evidence was rated with the grading of recommendations, assessment, development and evaluation (GRADE) approach.

RESULTS

Seventeen studies with 581 participants were included; six were randomised controlled trials. Risk of bias ranged from low to high. Only one study (n = 76) reported falls and did not find differences between telehealth and in-person physiotherapy. There was low-quality evidence that telehealth interventions improve balance outcomes more than face-to-face interventions (pooled between-group mean difference 2.48 Berg Balance Scale units, 95%CI 0.77 to 4.20). Fear of falling was not different between intervention delivery modes.

CONCLUSION

Findings suggest that telehealth delivered falls prevention interventions are safe, feasible and acceptable in community-dwelling adults with neurological conditions, however, data related to effectiveness in reducing falls is limited. Low-quality evidence suggests that telehealth may deliver similar or better outcomes for standing balance in this population.PROSPERO Registration: (CRD42021240167).

Active Videogaming Interventions in Adults with Neuromuscular Conditions: A Scoping Review

This review synthesized active videogaming (AVG) intervention literature over a 10-year period (2010-2020) for people with neuromuscular conditions (18-64 years of age), examining interventions that aimed to improve health and secondary conditions, physical activity, and outcomes quality of life (QOL). Systematic searches yielded 40 eligible studies. The major groups were multiple sclerosis (40%) and stroke (33%), and the study participants had mostly mild-to-moderate disability who were able to play games in a standing position. Research designs primarily involved randomized controlled trials (65%) and pre/post-trial design without a control group (28%). The majority of interventions used commercial off-the-shelf gaming systems, such as Nintendo Wii and Microsoft Kinect. Studies reported significant improvements in health outcomes, specifically in balance (n = 30/36), mobility (n = 24/27), and cardiorespiratory fitness (n = 6/8). Positive changes were also seen in secondary conditions (n = 8/12), physical activity (n = 3/4), and QOL outcomes (n = 8/16). AVG research for people with neuromuscular conditions has grown in both quantity and quality but several gaps remain. Study findings provide a roadmap for future AVG trials on understudied populations, and highlight technology and targeted outcomes as drivers of future intervention research.

Telemedicine in neurology: advances and possibilities

BACKGROUND

Telemedicine develops from technology that offers opportunities for knowledge transfer and information sharing and allows the provision of health services at a distance.

OBJECTIVE

To evaluate the number of publications on teleneurology in the last two decades in PubMed and the available evidence on the use of this technology in neurological clinical conditions.

METHODS

A quantitative assessment of publications related to telemedicine and neurology in the last two decades. A search was performed on the PubMed database for the descriptors ("Telemedicine"[Mesh]) AND "Neurology"[Mesh]). A review of the articles retrieved on the topic was carried out to evaluate the innovation processes used and applications in various clinical conditions involving teleneurology.

RESULTS

The search performed on March 14th 2022 resulted in 229 publications involving the topic of telemedicine and neurology between 1999 and 2022. Since 2000, there has been an increase in publications related to this topic, with a peak of 71 articles published in 2020, the year in which the World Health Organization defined the COVID-19 pandemic status.

CONCLUSION

In the last two decades, teleneurology has been developing through the expansion of technological resources and the COVID-19 pandemic intensified this process. Different modalities of teleneurology are studied in several neurology subfields and include teleconsultation (between healthcare professionals or between healthcare professionals and patients), telerehabilitation, telemonitoring and tele-education. The advances achieved by teleneurology in this period encouraged technological innovations and health processes that developed opportunities to improve the care provided in a mechanism of constant evolution.

Feasibility and safety of an immersive virtual reality-based vestibular rehabilitation programme in people with multiple sclerosis experiencing vestibular impairment: a protocol for a pilot randomised controlled trial

INTRODUCTION

Vestibular system damage in patients with multiple sclerosis (MS) may have a central and/or peripheral origin. Subsequent vestibular impairments may contribute to dizziness, balance disorders and fatigue in this population. Vestibular rehabilitation targeting vestibular impairments may improve these symptoms. Furthermore, as a successful tool in neurological rehabilitation, immersive virtual reality (VRi) could also be implemented within a vestibular rehabilitation intervention.

METHODS AND ANALYSIS

This protocol describes a parallel-arm, pilot randomised controlled trial, with blinded assessments, in 30 patients with MS with vestibular impairment (Dizziness Handicap Inventory ≥16). The experimental group will receive a VRi vestibular rehabilitation intervention based on the conventional Cawthorne-Cooksey protocol; the control group will perform the conventional protocol. The duration of the intervention in both groups will be 7 weeks (20 sessions, 3 sessions/week). The primary outcomes are the feasibility and safety of the vestibular VRi intervention in patients with MS. Secondary outcome measures are dizziness symptoms, balance performance, fatigue and quality of life. Quantitative assessment will be carried out at baseline (T0), immediately after intervention (T1), and after a follow-up period of 3 and 6 months (T2 and T3). Additionally, in order to further examine the feasibility of the intervention, a qualitative assessment will be performed at T1.

ETHICS AND DISSEMINATION

The study was approved by the Andalusian Review Board and Ethics Committee, Virgen Macarena-Virgen del Rocio Hospitals (ID 2148-N-19, 25 March 2020). Informed consent will be collected from participants who wish to participate in the research. The results of this research will be disseminated by publication in peer-reviewed scientific journals.

TRIAL REGISTRATION NUMBER

NCT04497025.

Effects on gait and balance of home-based active video game interventions in persons with multiple sclerosis: A systematic review

BACKGROUND

The current coronavirus disease (COVID-19) pandemic makes it difficult to obtain physical therapy in rehabilitation centres, particularly for persons with multiple sclerosis (pwMS), who are a population at high risk, since viral infections may contribute to MS exacerbations and relapses. Active video games could be a way to maintain physical therapy at home as part of the rehabilitation. The aim of this review is to summarise the current best evidence for the effectiveness of home-based active video games on gait and balance, user compliance, feasibility and safety for pwMS.

METHODS

We searched for studies in five databases (PubMed, Scopus, Cochrane, CINAHL and Science direct) up to October 2020. Selection of studies, extraction of data and methodological quality assessment through the PEDro scale were made independently by two authors and discussed with a third author.

RESULTS

Nine studies were included in this systematic review. We found significant improvements in balance; results were mixed concerning mobility, physical activity and gait. Home-based active video games are feasible and safe, with good compliance and adherence. The methodological quality of the studies was moderate (PEDro scale: 5.3 ± 2).

CONCLUSION

Overall, home-based active video games were found safe and effective improving static and dynamic balance in pwMS. Compliance was good, probably because it is a motivating and enjoyable training. Active video games can be a relevant alternative for physical rehabilitation at home in pwMS. Future studies should follow more rigorous methodological standards (larger sample sizes, more randomised controlled trials) to improve the quality of evidence and include cost-effectiveness in the analysis.